Jonathan R. Lamontagne scite author profile

Water scarcity is dynamic and complex, emerging from the combined influences of climate change, basin-level water resources, and managed systems’ adaptive capacities. Beyond geophysical stressors and responses, it is critical to also consider how multi-sector, multi-scale economic teleconnections mitigate or exacerbate water shortages. Here, we contribute a global-to-basin-scale exploratory analysis of potential water scarcity impacts by linking a global human-Earth system model, a global hydrologic model, and a metric for the loss of economic surplus due to resource shortages. We find that, dependent on scenario assumptions, major hydrologic basins can experience strongly positive or strongly negative economic impacts due to global trade dynamics and market adaptations to regional scarcity. In many cases, market adaptation profoundly magnifies economic uncertainty relative to hydrologic uncertainty. Our analysis finds that impactful scenarios are often combinations of standard scenarios, showcasing that planners cannot presume drivers of uncertainty in complex adaptive systems.

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Large Ensemble Analytic Framework for Consequence‐Driven Discovery of Climate Change Scenarios

Lamontagne

Reed

Link

et al. 2018

Earth's Future

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An analytic scenario generation framework is developed based on the idea that the same climate outcome can result from very different socioeconomic and policy drivers. The framework builds on the Scenario Matrix Framework's abstraction of “challenges to mitigation” and “challenges to adaptation” to facilitate the flexible discovery of diverse and consequential scenarios. We combine visual and statistical techniques for interrogating a large factorial data set of 33,750 scenarios generated using the Global Change Assessment Model. We demonstrate how the analytic framework can aid in identifying which scenario assumptions are most tied to user‐specified measures for policy relevant outcomes of interest, specifically for our example high or low mitigation costs. We show that the current approach for selecting reference scenarios can miss policy relevant scenario narratives that often emerge as hybrids of optimistic and pessimistic scenario assumptions. We also show that the same scenario assumption can be associated with both high and low mitigation costs depending on the climate outcome of interest and the mitigation policy context. In the illustrative example, we show how agricultural productivity, population growth, and economic growth are most predictive of the level of mitigation costs. Formulating policy relevant scenarios of deeply and broadly uncertain futures benefits from large ensemble‐based exploration of quantitative measures of consequences. To this end, we have contributed a large database of climate change futures that can support “bottom‐up” scenario generation techniques that capture a broader array of consequences than those that emerge from limited sampling of a few reference scenarios.

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Synthetic Drought Scenario Generation to Support Bottom-Up Water Supply Vulnerability Assessments

Herman

Zeff

Lamontagne

et al. 2016

J. Water Resour. Plann. Manage.

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The Abuse of Popular Performance Metrics in Hydrologic Modeling

Clark

Vogel

Lamontagne

et al. 2021

Water Resources Research

131

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The purpose of this commentary is to critically evaluate performance metrics that are habitually used in hydrologic modeling. Our specific objectives are three-fold: (a) provide tools to quantify the sampling uncertainty in performance metrics; (b) quantify the sampling uncertainty in the popular performance metrics across a large sample of catchments; (c) prescribe further research that is needed to improve the estimation, interpretation, and use of performance metrics in hydrologic modeling. Our overall intent is to highlight the

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A generalized Grubbs‐Beck test statistic for detecting multiple potentially influential low outliers in flood series

Cohn

England

Berenbrock

et al. 2013

Water Resources Research

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The Grubbs‐Beck test is recommended by the federal guidelines for detection of low outliers in flood flow frequency computation in the United States. This paper presents a generalization of the Grubbs‐Beck test for normal data (similar to the Rosner (1983) test; see also Spencer and McCuen (1996)) that can provide a consistent standard for identifying multiple potentially influential low flows. In cases where low outliers have been identified, they can be represented as “less‐than” values, and a frequency distribution can be developed using censored‐data statistical techniques, such as the Expected Moments Algorithm. This approach can improve the fit of the right‐hand tail of a frequency distribution and provide protection from lack‐of‐fit due to unimportant but potentially influential low flows (PILFs) in a flood series, thus making the flood frequency analysis procedure more robust.

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